DE1008762B - Steam distribution for surface condenser - Google Patents

Description

Steam distribution for surface condenser For surface condensers, which of several connected in parallel with respect to the medium to be condensed There are capacitor elements that are connected to a common air suction line Suction device are connected, prepares an even distribution of steam considerable difficulties on the individual capacitor elements. This is especially true for air-cooled condensers, in which the steam passes through the individual condenser elements is supplied at a low flow rate and at which as a result of the Air suction acting in practically the same way on all capacitor elements and the same vapor temperature between the individual capacitor elements only there are very slight pressure differences.

In order to achieve an even distribution of steam, one already has proposed that ducting in the steam distribution line or in the steam distribution chambers or to arrange control devices through which the flow cross-section in the Feed lines of the capacitor elements can be changed. Apart from this, that such a throttling is undesirable and in many cases unacceptable Resulting pressure losses, these distribution devices allow only one relatively rough regulation of the steam distribution, which is particularly important at low steam speeds and high specific vapor volume is insufficient.

According to the invention, the previously known vapor distributions Adhering disadvantages avoid that in a surface capacitor, its capacitor elements connected in parallel with respect to the medium to be condensed Connected to an air suction device via a common air suction line are, at least some of the capacitor elements via separate connecting lines to a second additional suction line connected in parallel to the main suction line is connected and that independently adjustable in the connecting lines Throttle devices are provided. Through this additional air suction line the prevailing in the individual capacitor elements can be determined in a simple manner Vacuum regardless of the pressure conditions in the main suction line with each set the desired accuracy. This makes it possible, even minor ones Differences in the flow resistance of the individual capacitor elements and the to them leading distribution lines, which at low steam speeds and high specific steam volume already leads to considerable disturbances of the steam distribution can lead to balance and a uniform application of all capacitor elements to ensure. Another advantage of the steam distribution proposed according to the invention is that due to different pressure conditions in the capacitor elements possibly forming air cushions in a simple manner by increasing the vacuum in the relevant capacitor element without influencing the vapor distribution and Allow air to be extracted in the remaining condenser elements. Although it is in In some cases, it is sufficient to connect only some of the capacitor elements to one of these To connect an additional suction line, it will usually be advisable to remove all of the condenser elements to be connected to this additional suction line.

The main and additional suction lines can be connected to a common air suction line be connected. However, it is also possible to connect the main and additional suction lines to connect separate air suction devices. It is useful if the additional suction line has a lower pressure difference between the air suction device and having a capacitor element as the main suction line. Achieved this way one that opens into the condenser elements when the throttle devices are open There is a greater negative pressure than in the suction openings of the additional suction line the suction openings of the main suction line. The one in the individual suction openings The negative pressure prevailing in the additional suction line can be reduced by actuating the in the connecting lines between the additional suction line and the capacitor elements provided throttle devices, if necessary, quickly and independently of one another regulate so that a very exact setting of the in each Capacitor elements prevailing vacuum is possible.

In the drawing, the invention is explained using two exemplary embodiments. 1 shows a steam distribution with a switched on in the main suction line Aftercooler in a schematic representation, Fig. 2 a steam distribution without aftercooler in the main suction line in a schematic representation, Fig. 3 a steam distribution without aftercooler in the main suction line with separate air suction device for the additional suction line, also in a schematic representation.

In the case of the steam distribution shown in FIG. 1, the steam to be condensed Steam through the conically tapering steam distribution line 1 to the parallel connected Condensate elements-2 supplied via the connecting piece 3. The capacitor elements 2 are air-cooled surface capacitors with a number of parallel-connected Formed finned tubes. The upper end of the finned tubes is connected to a steam distribution chamber 4 and connected at its lower end to a condensate collection chamber 5. the Condensate collection chamber 5 of the condenser elements2 is via connecting lines6 connected to a main suction line 8 leading to an air suction device 7. The connecting lines 6 of the main suction line 8 open into the bottom of the condensate collection chimneys 5. In the main suction line 8 are a condensate collecting tank 9, a throttle slide 10 and an aftercooler 11 switched on.

The capacitor elements 2 are also separated from one another Connecting lines 12 to an additional suction line connected in parallel to the main suction line 8 13 connected. For the main suction line 8 and the additional suction line 13 a common air suction device 7 is provided. In the connecting lines 12 of the Zusatzabsaugele.itung 13 are independently adjustable throttle devices 14 arranged. The connecting lines 12 open in the .oberen area of the condensate collecting chamber @ rn 5 in the capacitor elements 2. This ensures that through the connecting lines 12 no condensate is extracted.

In the embodiment shown in Fig. 1 prevails on the Suction side of the air suction device 7, an absolute pressure of, for example 0.02 ata. At a certain flow velocity, it should hit the aftercooler 11 a pressure gradient of 100 mm water column and on the throttle device 10 a Pressure drop of 200 mm water column is eliminated while. for the main suction line 8 including the connecting lines 6 a total pressure loss of 50 mm Gives a water column. In the suction openings opening into the condensate collection chambers 5 the connecting lines 6 therefore have an absolute pressure of 0.055 ata. the on the condenser elements 2 and the connecting lines 3 allotted pressure difference should be 50 mm water column in the present case, so that in the distribution line 1 an absolute vapor pressure of 0.06 ata is established. The temperature of the mixes relatively low Geszhwindi: gke, it the distribution line 1 flowing through the wet steam is about 36 ° C.

Although the Zusatzabsau: line 13 is an essential - for example 3 to 5 times smaller flow cross-section than the main suction line 8, can be arranged in the connecting lines 12 with full opening Throttle slide 14 in the suction openings of the connecting lines 12 a pressure achieve for example 0.035 ata. The through full opening of the throttle devices 14 achievable pressure difference of 200 mm water column between the suction openings of the connecting lines 12 and those of the N ', connecting lines 6 stands for the Regulation of the steam distribution to the individual condenser elements2 is available. If, for example, it turns out that the one in Fig. 1 is the last to be applied to the steam manifold 1 connected capacitor element 2 is only charged with 75% of the amount of steam which is connected to the first condenser element 2 connected to the steam distribution line is omitted, by opening the corresponding throttle device 14, the in the Collecting chamber 5 of the capacitor element, which is too little loaded, prevailing absolute Reduce the pressure until the capacitor element is fully loaded. on this can be done without influencing the air suction through the main suction line 8 the steam distribution on the individual condensate elements 2 independently of one another to adjust. Because in most cases only a small part of the capacitor elements is insufficiently applied without additional measures, it is sufficient to do this to carry out additional air extraction only on a few condenser elements. For the remaining capacitor elements 2, the effect caused by the aftercooler 11 can therefore be used Temperature and volume reduction can be fully exploited. Because the additional suction line 13 and the connecting lines 12 only have a relatively small flow cross section own, there is the further advantage that as throttle devices 14 relatively small and easy-to-seal gate valves or valves can be used.

In the embodiment shown in Figure 2, the capacitor elements 2 also via a main suction line 8 and one connected in parallel to it Additional suction line 13 is connected to a common air suction device 7. In contrast to the embodiment according to FIG. 1 is in the Hauptabsau, line 8, however, no aftercooler, but only a throttle device 10 is provided. Instead of a condensate collecting tank, there is a pipe siphon 15 with a discharge line 15 a. switched on for the condensate in the main suction line 8.

The negative pressure generated by the air suction device 7 is through the throttle device 10 in connection with the flow resistance 'of the siphon 15, the main suction line 8 and the connecting lines 6 reduced so far, that in the 5 opening into the condensate collection chambers suction openings of the connecting lines 6 there is an absolute pressure higher than, for example, 150 mm water column when the throttle devices 14 are fully open in the A.nsaugeöffnunaen Connecting lines 12 adjusts. In case of insufficient loading of individual capacitor elements 2, the throttle devices 14 assigned to them are opened so far and as a result, the air extraction in these condenser elements in the barrel is increased, until these condenser elements have been fully charged with steam.

Fig. 3 shows an embodiment in which the main suction line 8 and the additional suction line 13 to separate air suction devices 7, 7a are connected. The air suction device 7 is relative for a large suction volume designed with moderate negative pressure, while the the additional suction line 13 associated air valley) suction device, device 7a.beigeringer Delivery rate should generate a high negative pressure. With this arrangement can even with only slight throttling of the main suction line 8 by the throttle device, tun.g 10 a strong pressure difference between the condenser elements2 opening Suction openings of the connecting lines 6 of the main suction line 8 and - at corresponding opening of the throttle devices 14 - the suction openings of the connecting lines 12 of the additional suction line 13.

On the arrangement of a throttle device 10 in the Hau.ptabsaugeleitung 8 can be dispensed with in particular if there is a main suction line 8 Aftercooler 11 is switched on. It is the same when using two separate ones Air suction devices for the main suction line 8 and the additional suction line 13 not necessary in many cases, a throttle device 10 in the main suction line 8 to be provided.

In deviation from the embodiment shown in the drawing can also only single, badly loaded elements of a capacitor system, for example the last to the distribution line 1 and the main suction line 8 connected elements, be connected to an additional suction line13. For the drainage of the condensate from the collecting chambers 5 of the capacitor elements 2 can special drain lines separate from the connecting lines 6 are also provided will.

Claims (9)

PATENT CLAIMS: 1. Vapor distribution for surface condenser, which of several capacitor elements connected in parallel with respect to the medium to be condensed exists, which is connected to an air suction device via a common air suction line are connected, characterized in that at least some of the capacitor elements (2) via separate connecting lines (12) to a second line to the main suction line (8) additional suction line (13) connected in parallel and that in the connecting lines (12) of the additional suction line (13) independently of one another adjustable throttle devices (14) are provided. 2. Steam distribution according to Claim 1, characterized in that the main and additional suction line (8 or 13) are connected to a common air suction device (7). 3. Steam distribution according to claim 1, characterized in that the main and additional suction line (8 or 13) connected to separate Luftabsaugevo, rrich @ lines (7, 7a) are. 4. Steam distribution according to claim 1 or one of the following, characterized in that that when the throttle devices (14) are open, the negative pressure in the condenser elements (2). Opening suction openings of the additional suction line (13) larger than in the Suction openings of the main suction line (8) is selected. 5. Steam distribution according to Claim 2 or one of the following, characterized in that, ß the additional suction line (13) a lower pressure difference between Luftabsaugevonrichbung (7, 7a) federal government Has capacitor element (2) as the main suction line (8). 6. Steam distribution according to claim 1 or one of the following, characterized in that in the main suction line (8) at least one throttle device (10) is switched on. 7. Steam distribution according to claims 1 and 2, in which the main suction line is interposed an aftercooler is connected to the air suction device, characterized in that that the additional suction line (13) bypassing the aftercooler (11) directly is connected to the same Luftabsaragevorrich.tung (7). B. Steam distribution according to Claim 1 or one of the following, characterized in that the additional suction line (13) has a significantly lower flow cross-section than the main suction line (8th). 9. Steam distribution according to claim 1 or one of the following, characterized in that that the suction openings of the connecting lines opening into the capacitor elements (2) (12) of the additional suction line (13) in the upper area of the condensate collection chambers (5) are arranged.